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Общее количество найденных документов : 568
Показаны документы с 1 по 20 |
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>1.
| A role of expression level of reference and investigated genes in prostate tumors qPCR analysis/G. V. Gerashchenko [et al.] // Biopolymers & Cell. -К., 2018. т.Том 34,N N 2.-С.85-96
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>2.
| Analysis of Aurora kinases genes expression points on their distinct roles in prostate cancer development/O. Mankovska [et al.] // The Ukrainian biochemical journal. -Київ, 2019. т.Vol. 91,N № 6.-С.15-26
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| Analysis results surgical treatment patients with localized and locally distributed prostate cancer/S. O. Vozianov [et al.] // Урологія. -Дніпропетровськ, 2021. т.Том 25,N N 3.-С.199-202
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>4.
| Artificial Intelligence Approach in Prostate Cancer Diagnosis: Bibliometric Analysis/A. Denysenko [et al.] // Галицький лікарський вісник. -Івано-Франківськ, 2022. т.Том 29,N N 2.-С.32-38
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| Co-administration of apigenin with doxorubicin enhanges anti-migration and antiproliferative effects via PI3K/PTEN/AKT pathway in prostate cancer cells/A. Ayyildiz [et al.] // Experimental Oncology. -К., 2021. т.Том 43,N N 2.-С.125-134
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>6.
| Detection of prostate specific ETS fusion transcripts in cancer samples/L. V. Mevs [et al.] // Biopolymers & Cell. -К., 2017. т.Том 33,N N 4.-С.256-267
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>7.
| Differential expression pattern of AIR, UCKL1, and PKN1 GENES in prostate cancer patients/L. Kovalevska [et al.] // Experimental Oncology. -К., 2022. т.Том 44,N N 1.-С.47-51
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>8.
| Dubrovska A. Epigenetic and metabolic reprogramming as a target for prostate tumor radiosensitization/A. Dubrovska // Experimental Oncology. -К., 2017. т.Том 39,N N 3.-С.239
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>9.
| Effect of copulation on potentially precancerous prostate lesions, serum testosterone and prolactin levels in rats/D. Herrera-Covarrudias [et al.] // Experimental Oncology. -К., 2016. т.Том 38,N N 2.-С.73-79
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>10.
| Effects of dextran-graft-polyacrylamide/ZnO nanoparticles on prostate cancer cell line IN VITRO/P. A. Virych [et al.] // Experimental Oncology. -К., 2022. т.Том 44,N N 3.-С.217-222
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>11.
| Effects of exogenous lactoferrin on phenotypic profile and invasiveness of human prostate cancer cells (DU-145 and LNCaP) in vitro/T. V. Zadvornyi [et al.] // Experimental Oncology. -К., 2018. т.Том 40,N N 3.-С.184-189
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>12.
| Evaluation of the activity of prostate cancer biomarkers in post-massage urine/R. O. Danilets [et al.] // Здоров'я чоловіка, 2021,N № 3.-С.49-57
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>13.
| Expresion paterns of various PDCD1 and PDL1 isoforms in prostate tumors/G. V. Gerashchenko [et al.] // Biopolymers & Cell. -К., 2022. т.Том 38,N N 3.-С.169-185
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>14.
| Expresion patterns of genes, regulating lipid metabolism in prostate tumors/G. V. Gerashchenko [et al.] // Biopolymers & Cell. -К., 2018. т.Том 34,N N 6.-С.445-460
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>15.
| Expression of cancer-associated genes in prostate tumors at mRNA and protein levels/G. V. Gerashchenko [et al.] // Biopolymers & Cell. -К., 2019. т.Том 35,N N 1.-С.39-53
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>16.
| Expression of cancer-associated genes in prostate tumors/E. E. Rosenberg [et al.] // Experimental Oncology. -К., 2017. т.Том 39,N N 2.-С.131-137
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>17.
| Expression of cancer-associated genes in prostate tumors/E. Rosenberg [et al.] // Experimental Oncology. -К., 2017. т.Том 39,N N 2.-С.160
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>18.
| Expression of chemokine (C-C motif) receptor 7 in prostate cancer tissue of young patients and in metastatic cancer cells/R. Parra-Medina [et al.] // Experimental Oncology. -К., 2022. т.Том 44,N N 2.-С.137-141
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>19.
| Expression of epithelial-mesenchymal transition-related genes in prostate tumours/G. V. Gerashchenko [et al.] // Biopolymers & Cell. -К., 2017. т.Том 33,N N 5.-С.335-355
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>20.
| Expression of markers of bone tissue remodeling in breast cancer and prostate cancer cells in vitro/N. Lukianova [et al.] // Experimental Oncology. -К., 2022. т.Том 44,N N 1.-С.39-46
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